Specifications C6J ea I
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MILLER
CONSULTING
ENGINEERS
STRUCTURAL CALCULATIONS
Umpqua Bank Roof Top Unit Anchorage
6610SW Cardinal Lane, Tigard, Oregon
Oregon Aire
April 24, 2015
Project No. 150467 •
5 pages
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EXPIRES:12-31-2016
*** LIMITATIONS***
Miller Consulting Engineers, Inc. was retained in a limited capacity for this
project. This design is based upon information provided by the client,who
is solely responsible for accuracy of same. No responsibility and or liability
is assumed by or is to be assigned to the engineer for items beyond that
shown on these sheets.
Engineering Practical,Diverse Structural Solutions Since 1978
9570 S W Barbur Blvd.,Suite 100, Portland,Oregon 97219-5412
Phone:(503)246-1250 Fax:(503)246-1395 www.miller-se.com
• Building Code: 2014 Oregon Structural Specialty Code
Soils Report: No Soils Report by: N/A Dated: N/A
Soil Bearing: 1500 PSF Retaining Walls: No
Equivalent Fluid Pressure(active): N/A PCF Passive bearing: N/A PCF Friction: N/A
Structural System:Component
Vertical System:N/A Lateral Sys:N/A
Element Unit Curb
Load Type Dead Dead
Basic Design Value(PSF) 4235 lb 341 lb
Loads: Load Type 0 0
Value(PSF) 0 0
Deflection Criteria 0 0
Lateral Design Parameters:
Wind Design:ASCE 7-10 Wind Speed(3 sec Gust): 120 MPH
Exposure B
Importance Factors Iw= 1.00 IE= 1.00 i5= 1.00 II= 1.00 Risk Cat: II
(ice w/wind) (seismic) (snow) (ice)
Seismic Design
Latitude: 0.000000
Seismic design parameters are based on published Longitude: 0.000000
values from the USGS web site. 2%PE in 50 years,0.2 sec SA=Ss
2%PE in 50 years,1.0 sec SA=S1
See Next Page.
(Site class B parameters are indicated on this page,for actual site class
used in design,refer to seismic design summary)
Design Summary:
The following are the calculations for the anchorage of a new roof top unit to an existing building. The unit is anchored to a steel frame that is designed by others and
•
provides the attachment to the building structure. Scope does not include any anchorage further than the attachment of the curb to the steel frame.
9570 SW Barbur Blvd. Project Name: Umpqua Bank Roof Top Unit Anchorage Project#: 150467
- Suite One Hundred
Portland,OR 97219 Location: 6610SW Cardinal Lane,Tigard,Oregon
MILLER (503)246-1250 Client Oregon Aire
CONSULTING
ENGINEERS FAX:246-1395
BY: JLT Ck'd: Date: 04/24/15 Page 1 of 5
EMS Design Maps Summary Report
User-Specified Input
Building Code Reference Document ASCE 7-10 Standard
(which utilizes USGS hazard data available in 2008)
Site Coordinates 45.41087°N, 122.74492°W
Site Soil Classification Site Class D-"Stiff Soil"
Risk Category I/II/III
2mr 210 s ��
1000m 1^'.I yt
•m
Psrrmin ton
q i l Milwaukee
kio,otr 19.1,3 a 0
A tN I i L$lce O we A. R 4i[+a�
x \ 4 ' ,r 1'
f4,.Scholls ' c' CIaCk
rtma'crty iL 6 haidr i I _
11:
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, it . T On_ _
f_
_ u l 4AMERICA
-_ =" ---_ -. 20s
' Sherwood • .
mapque•st __-�io�t ' j
Y'Z --- -- ipQuesL3omer#m®2015'9 P. °'• e:MapQue;t.
USGS-Provided Output
Ss= 0.970 g SMS= 1.079 g SD5= 0.719 g
Si= 0.420 g SM1 = 0.664 g Sp1 = 0.443 g
For information on how the SS and S1 values above have been calculated from probabilistic(risk-targeted)and
deterministic ground motions in the direction of maximum horizontal response, please return to the application and
select the"2009 NEHRP"building code reference document.
MCER Response Spectrum Design Response Spectrum
1.10 0.72 - _-_ - _-
0.99 0.64
0.00
0.56
0.77
0.40
moo
0.55 , 0.40
v7 0.32
0.44
0.33 0.24
0.22 0.10
0.11 0.00
0.00 0.00
0.00 0.20 0.40 0.00 0.00 1.00 1.20 1.40 1.60 1.00 2.00 0.00 0.20 0.40 0.60 0.00 1.00 1.20 1.40 1.00 1.00 2.00
Period.T(sec) Period.T(sec)
9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Suite One Hundred Project Name Project# 150467
Portland,OR 97219
Location 6610SW Cardinal Lane,Tigard,Oregon
MILLER Client Oregon Aire
Phone 503.246.1250
CONSULTING Fax 503246.1395 By JLT Ck'd > Date 04/24/2015 Page 2 OF 5
ENGINEERS www.miller-se.com
1
Mechanical Unit Lateral Loadinq
CLIP LOCATION
(UNIT TO CURB),TYP,
LONG SIDE
SHORT
t
DIREC c
LONG J SHORT DIRECTIONON / L�•iik�.�� �� SIDE
FASTENER LOCATION
"Wes' (CURB TO STRUCTURE).TYP-
Unit Dimensions: Curb Dimensions:
Unit Height H= 55.5 In Curb Short Dim.,Wcs= 91.3 in
Unit Short Dim.,Ws= 97.5 in Curb Long Dim.,Wel= 174.2 in
Unit Long Dim.,WL= 205.2 in Curb Height,C= 14.0 In
Unit C.G.,CG= 111-0 In
MISC.INFORMATION:
Load Combination:Basic Load Combination Is Unit outdoors?Yes
Unit WT= 4235 lb Unit attaches to Roof
Curb WT= 341 lb Roof Height= 42 ft
Long Side Short Side
Number of clips per side= 3 J 2 I h„(ft)= 42 ft.Component attachment elevation w/
Fastener spacing to structure per side.' 16 Inches o-c. respect to garde
Number of fasteners to structure per side= 13 I 11
SEISMIC;DESIGN USING ALLOWABLE STRESS LOAD COMBINATIONS
Elements of Structures,Nonstructural Components.and Equipment Supported by Structures
Site Class D ASCE 7-10,Sec.20.3,Table 20.3-1,pg.152
Life Safely Equipment? No
Seismic Design Category D ASCE 7-10,Sec.11.6,pg 56
Risk Category II IBC 2012 Sec 1604.5,pg 336
S.= 97.00% ASCE 7-10,Figure 22-1 page 158
Fe- 1.11 ASCE 740 Table 11.4-1 pg 55(Linear interpolation Is used)
55= 1.08 ASCE 7-10 eqn.11.4-1 pg 55
Sop= 0.72 ASCE 7-10 eqn.11.43 pg 55
b= 1.00 ASCE 7-10 Sec 13.1.3,pg 87
. at= 2.5 ASCE 7-10 Table 13.6-1,pg 93
Rp 6.0 ASCE 7-10 Table 13.6-1,pg 93
• Fp 0.360 •Wp ASCE 7-10 Eq.13.3-1,pg 88
OR 1.151 •Wp ASCE 7-10 Eq.13.3.2,pg 89
Not less than 0.216 'Wp ASCE 7-10 Eq.113-3,pg 89
Fe- 0.360 •Wp
0.2SeaWp= 0.144 •Wp (ASCE7-10 Sec.13.3,pg 88)
Equipment Overturning(Seismic). Short Direction
LOCATION 0.7'Fp(Ib) 0.7•(0.2•WOS'Wp) Center of mo.W(0) 0.7•Mot(ft- 0.6•Mr
(Ib) mass(ft) Ib) (ft-Ib)
Unit-to-Curb 1066 426 9.25 8.13 9861 10323
Curb-to-Roof 1152 461 9.68 7.60 11156 10439
Short Direction Holdown force per connector from OT Holdown force per connector from Total holdown force per Total shear force per
(Ib) Ve,Bcal seismic load(Ib) connector(Ib) connector(Ib)
Unit-to-Curb -19 43 24 267
Curb-to-Roof 31 46 77 52
Long Direction
LOCATION Width,WL(1t) 5.7•Mot(ft-Ib) 0.6•Mr
(ft-Ib)
Unit-to-Cum 17.10 13506 21726
Curb-to-Roof 14.52 14499 19926
Long Direction Holdown force per connector from OT Holdown force per connector from Total holdown force per Total shear force per
(IS) vertical seismic load(lb) connector(Ib) connector(Ib)
UnIt-to-Curb -240 43 No Uplift 178
Cum-to-Roof -34 10 No Uplift 44
at
9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Suite One HundredProject Name Project# 150467
MPortland,OR 97219
Location 6610SW Cardinal Lane,Tigard,Oregon
MILLER Client Oregon Aire
Phone 503.246.1250 11
CONSULTING Fax 503.246.1395 By JLT Ck'd A� ' Date 04/24/2015 Page 3 OF 5
ENGINEERS wWw.miller-se.Dom
WIND:DESIGN USING ALLOWABLE STRESS LOAD COMBINATIONS
Wind Loads on Other Struthers and Striding Appurte-nances-MWFRS
• Basic Wind Speed= 120 MPH(3 second Gust)based on Risk Category
TOP OF UNIT HEIGHT= 47.79 ft =42+55.5/12+14/12
Exposure Category= B ASCE 7-10,Sec.26.7pg 195
0= 44.90 rt
K.= 0.79 ASCE 7-50,Table 29.3-1,pg 251
Ko= 0.9 ASCE 7-10 Table 26.6-1 pg 194
K,= 0 ASCE 7-10 Figure 26.8-1 pg 196
K.= 1 i SCE 7-10 Figaa 26.8-1 pg 196
Ks= 1 i CE 7-10 Figura 25.8-1 pg 196
Ka= 1 -SCE 7-10 Figure 26.8-1 pg 197
GCr= 1.90 (halmntal load/ng,Section 29.5.1)
GC, 1.50 (vertical loetlhg,Sethon 29.51)
q.=0.002561VA,' 28.08 ps/,ASCE 7-10,Eq.29.31 pg 249
F5=q.•GC, 48.56 pe,(per area)ASCE 7-10 Eq.29.5-1 pg 250
Fv=q.•GC, 39.12 pot(Ger area)ASCE 7-10 Eq.29.51 pg 250
Equipment Overturning pnsnd)• Short Direction
LOCATION Lever Ann(ft) 0.5Letuel Force 0.6'upliR WidthW.( 0ft) .6•Mot (ft- M,ft-Ib 0.6'Mr
(Ib) Force(Ib) Ib) ( ) (ft-Ib)
Unit-to-Curb 231 2352 3261 8.13 5439 17205 10323
Curb-to-Roof 2.97 2855 3261 7.60 8475 17398 10439
Short Direction Holdown Force per side horn OT(5) Holdown force per side W sitle from d TOHoldown Force per Total shear force per
Uplift(N) connector(Ib) connector(Ib)
Unit-to-Cab 601 815 71 588
Curb-to-Roof -20 68 48 130
Long Direction
LOCATION Lever Arm(ft) 0.8'Lateral Force 0.6'upOfl Width Wt(ft) 0.8'Mot (fl- M(ftp) 0.8•Mr
Qb) Force(Ib) Ib) (R-N)
UnIt-to-Curb 2.31 1117 1857 17.10 2583 36209 21726
Curb-to-Roof 2.93 1399 1857 14.62 4094 33210 19926
Long Direction Holdown Force per side from OT(6) Holdown force per side horn Wind Total Holdown Force per Totalshear force per
Uplift(Ib) connector(Ib) connector(Ib)
Unit-to-Curb -1119 464 No Uplift 186
Curb-to-Roof -84 39 No Uplift 54
CONTROLLING DESIGN FORCES PER CONNECTOR:
Shear(lb) Tenslon(Ib)
Unit-to-Curb 688 Wind 71 Wnd
Curb-to-Roof 130 Wind 77 Seismic
' 9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Sure One Hundred
Portland,OR 97219 Project Name Project# 150467
Ili •Location 6610SW Cardinal Lane,Tigard,Oregon
• MILLER Client Oregon Aire
Phone 503.246.1250
CONSULTING Fax 503.246.1395 By JLT Ck'd �L Date 04/24/2015 Page 4 OF 5
ENGINEERS .miller-se.com
Fastener Check:(for unit to curb and curb to wood framing)
T T
C
A.
kit
CL 'M M (I" ''
no llVIT
M
J W
Z Z
Bending in clip due to uplift
Clip Offset,Z= 3 Inches
Mreq= 107 In-lb(assuming fixity at ea.end)
Clip Length= 12 inches
Cfp Thickness= 0.0451 inures
Plastic Section Modulus 0.00610 ins
Clip Yield Strength= 33 ksi
Mallow= 121 in-lb OK
Screws ea.Leg of clip II.
n= 3 screws/leg
Clip Leg Length,X= 1.5 Inches
Tpry= 47 lbs/screw
Shear load per screw= 197 lbs/screw
Tallow= 156 lbs/screw
Vallow= 394 lbs/screw Use 18 ga.clips
Interaction 0.80 OK Use(3)612 self tapping screws ea.log of bent clip
Curb-to-Roor'Self-Tapping screws each side of unit to steel frame(by others)at 16"o.c
Vail= 395 Capacities of self tapping#12 screws through 18 Gauge Curb into steel
Tall= 280 frame(Min.0.0566 inches thick)
Vreq.= 130 130 lb<395lb—>OK Use#12 self-tapping screws at 16 Inches O,C,on all sides of
Treq.= 97 97 lb<280 lb—0 OK curb.
Interaction= 0.676 <1.0—>OK
St 9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Suite One Hundred Project Name Project# 150467
_ Portland,OR 97219
Location 6610SW Cardinal Lane,Tigard,Oregon
• MILLER Client Oregon Aire
Phone 503.246.1250
CONSULTING Fax 503.246.1395 By JLT Ck'd A let- Date 04/24/2015 Pa 5 OF 5
ENGINEERS www.miller-se.com9e
Mechanical Installation
Rigging and Handling lifting of the unit.The cable length from the bracket to the
hook should always be longer than the distance between the
, , WARNING outer lifting points.
Only trained and qualified personnel should be allowed to If the unit is stored at the construction site for an intermediate
rig loads or operate load rated cranes and/or hoist period,take these additional precautions:
assemblies.Do not use a forklift to lift or maneuver the 1 Support the unit well alongthe
unit.Failure to use a load rated crane or hoist assembly to PP length of the base rail.
lift or maneuver the unit can cause severe personal injury 2 Level the unit(no twists or uneven ground surface).
and property damage. 3 Provide proper drainage around the unit to prevent flooding
Qof the equipment.
t WARNING 4 Provide adequate protection from vandalism,mechanical
Use all lifting points.Improper lifting can cause property contact,etc.
damage,severe personal injury,or death.
5 Securely close the doors.
CAUTION 6 Cover the supply and return air openings.
Lifting points may not be symmetrical to the center of Table 2 lists the weight distribution at each of the six lifting
gravity of the unit.Ballast or unequal cable lengths may be points on the unit(refer to Figure 10 and Figure 11 on
required. page 14).Table 5 and Table 9 details lifting point locations.
Rigging holes for shackles are integral on the unit base.All six Table 6 lists the weights of unit curbs.
lifting points must be used for rigging the equipment.Use
four independent lines,securing one end of a line to a unit Table 2:Unit Base Weights
base lifting point and the other end of the line to an ,,, x Unit ," ' Total Weight(lbs)
associated spreader bar lifting point(seeFigure 10 and 015 v 2655
017 2705
Figure 11).Figure 9 is an example of an instruction label 020 2955
shipped with each unit. 025 3055
Figure 9:Rigging Label 030 3610
035 3660
LIFT UNIT ONLY AS SHOWN 040 4685
050 4985
,` SPREADER BARS REQUIRED
Table 3:Unit Curb Weights
��.�i�. „ � CurtiHei'g'ht- . -' u.,. „•
IIIIII3 r P - Total Weight(lbs)
IYI a��SMI Standard Unit
0.1 ���►�I II1I1Yip 015-035 24" 504
040-050 14" 461
MUST USE ALL OF THESE 24" 706
LIFTING LUGS FOR LIFTING UNIT. Unit with Energy Wheel
Use spreader bars,96"to 100"(2438 to 2540 mm)wide to 015-035 14" 458
24" 674
prevent damage to the unit cabinet.Avoid twisting or uneven 14" 619
040-050 24" 908
REFERENCE ONLY
' 9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Suite One Hundred
Portland,OR 97219 Project Name Project# 150467
MkLocation 6610SW Cardinal Lane,Tigard,Oregon
- MILLER Client Oregon Aire
Phone 503.246.1250 n
CONSULTING Fax 503.246.1395 By JLT Ck'd n R L Date 04/24/2015 Pa RI OF 2
ENGINEERS '•miller-se.com ge
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GENERAL
THE CONTRACTOR IS RESPONSIBLE FOR VERIFICATION AND CORRELATION OF ALL ITEMS AND WORK NECESSARY FOR COMPLETION OF
THE PROJECT AS INDICATED BY THE CONTRACT DOCUMENTS.SHOULD ANY QUESTION ARISE REGARDING THE CONTRACT DOCUMENTS
OR SITE CONDITIONS, THE CONTRACTOR SHALL REQUEST INTERPRETATION AND CLARIFICATION FROM THE ENGINEER BEFORE
BEGINNING THE PROJECT. THE ABSENCE OF SUCH REQUEST SHALL SIGNIFY THAT THE CONTRACTOR HAS REVIEWED AND
FAMILIARIZED HIMSELF WITH ALL ASPECTS OF THE PROJECT AND HAS COMPLETE COMPREHENSION THEREOF. THE CONTRACTOR
SHALL BE RESPONSIBLE FOR CONFORMANCE TO ALL SAFETY REGULATIONS DURING CONSTRUCTION.
THE CONTRACT DRAWINGS AND SPECIFICATIONS REPRESENT THE FINISHED STRUCTURE.UNLESS OTHERWISE SPECIFICALLY NOTED,
THEY DO NOT INDICATE THE METHOD OF CONSTRUCTION OR CONSTRUCTION LOADS. ONLY THE CONTRACTOR SHALL PROVIDE ALL
METHODS, DIRECTION AND RELATED EQUIPMENT NECESSARY TO PROTECT THE STRUCTURE,WORKMEN AND OTHER PERSONS AND
PROPERTY DURING CONSTRUCTION.THE CONTRACTOR SHALL,AT HIS OWN EXPENSE, ENGAGE PROPERLY QUALIFIED PERSONS TO
DETERMINE WHERE AND HOW TEMPORARY PRECAUTIONARY MEASURES SHALL BE USED AND INSPECT SAME IN THE FIELD. ANY
MATERIAL NOT AS SPECIFIED OR IMPROPER MATERIAL INSTALLATION OR WORKMANSHIP SHALL BE REMOVED AND REPLACED WITH
SPECIFIED MATERIAL IN A WORKMANLIKE MANNER AT THE CONTRACTOR'S EXPENSE.
THESE PLANS, SPECIFICATIONS, ENGINEERING AND DESIGN WORK ARE INTENDED SOLELY FOR THE PROJECT SPECIFIED HEREIN.
MILLER CONSULTING ENGINEERS DISCLAIMS ALL LIABILITY IF THESE PLANS AND SPECIFICATIONS OR THE DESIGN, ADVICE AND
INSTRUCTIONS ATTENDANT THERETO ARE USED ON ANY PROJECT OR AT ANY LOCATION OTHER THAN THE PROJECT AND LOCATION
SPECIFIED HEREIN. OBSERVATION VISITS TO THE JOB SITE AND SPECIAL INSPECTIONS ARE NOT PART OF THE STRUCTURAL
ENGINEER'S RESPONSIBILITY UNLESS THE CONTRACT DOCUMENTS SPECIFY OTHERWISE.
NON STRUCTURAL PORTIONS OF PROJECT,INCLUDING BUT NOT LIMITED TO PLUMBING,FIRE SUPPRESSION,ELECTRICAL,MECHANICAL,
LAND USE,SITE PLANNING,EROSION CONTROL FLASHING AND WATER-PROOFING ARE BEYOND THE SCOPE OF THESE DRAWINGS AND
ARE PROVIDED BY OTHERS.
DESIGN LOADS
LIVE LOAD REDUCTION FOR BEAMS AND COLUMNS WAS NOT USED. DESIGN FOR MECHANICAL LOADS INCLUDES ONLY THOSE
INDICATED ON STRUCTURAL DRAWINGS.THE FOLLOWING ARE THE DESIGN REQUIREMENTS:
STRUCTURAL DESIGN CRITERIA
RISK CATEGORY II
DESIGN DEAD LOADS
ROOF TOP UNIT 4235 LB
CURB 341 LB
WIND DESIGN DATA
BASIC WIND SPEED(3 SEC GUST) 120 MPH
EXPOSURE B
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EXPIRES:12-31 -2016
' 9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
Suite One Hundred Project Name Project# 150467
Portland,OR 97219
Location 6610SW Cardinal Lane,Tigard,Oregon
• MILLER Client Oregon Aire
Phone 503.246.1250
CONSULTING Fax 503.246.1395 By JLT Ck'd f RI" Date 04/24/2015 pageS 1 O F 3
ENGINEERS
www.miller-se.com
SEISMIC DESIGN DATA
IMPORTANCE FACTOR Is=1.0
SPECTRAL RESPONSE ACCELERATIONS Ss=0.97,S,=0.42
SITE CLASS D
SPECTRAL RESPONSE COEFFICIENTS Sos=0.719,Soy=0.443
SEISMIC DESIGN CATEGORY D
RESPONSE MODIFICATION FACTOR R=6.0
ANALYSIS PROCEDURE USED ASCE 7-10 EQUIVALENT LATERAL FORCE
COLD-FORMED STEEL
ALL COLD-FORMED STEEL FRAMING SHALL CONFORM TO THE AISI "NORTH AMERICAN SPECIFICATION FOR THE DESIGN OF COLD-
FORMED STEEL STRUCTURAL MEMBERS"WITH SUPPLEMENTS.ALL LATERAL SYSTEMS UTILIZING COLD-FORMED STEEL FRAMING ARE
TO BE DESIGNED AND CONFORM TO THE"NORTH AMERICAN STANDARD FOR COLD-FORMED STEEL FRAMING-LATERAL DESIGN"WITH
SUPPLEMENTS.OTHER REFERENCED DOCUMENTS CITED PER THE REFERENCED STANDARDS OF THE IBC SHALL BE UTILIZED IN DESIGN
AS APPROPRIATE. MEMBER TYPES AND SIZES SHOWN ON THE DRAWINGS REFER TO MEMBERS AS DEFINED BY THE STEEL STUD
MANUFACTURERS ASSOCIATION (SSMA). SEE THE CONTRACT DRAWINGS AS SPECIFIED ON TABLE [1.02] AND SHEET [S0.02] FOR
REQUIRED THICKNESSES AND JOIST/BEAM DESIGNATIONS.
LIGHT GAUGE STEEL
COLD-FORMED STRUCTURAL MATERIAL:
ALL STRUCTURAL LIGHT-GAGE STEEL MEMBERS SHALL BE MILL CERTIFIED PRIME STEEL MEETING ASTM A653 STRUCTURAL
QUALITY;GRADE 33 FOR STEELS THINNER THAN 16 GAGE(54 MILS)AND GRADE 50 FOR STEELS 16 GAGE(54 MILS)AND
THICKER.GRADE 33 STEEL SHALL HAVE A FY=33000 PSI AND FU=45000 PSI.GRADE 50 STEEL SHALL HAVE A FY=50000 PSI
AND FU=60000 PSI.ALL LIGHT-GAGE STEEL SHALL BE GALVANIZED PER ASTM A653 WITH MINIMUM COATING OF G60 FOR
EXTERIOR AND/OR LOAD BEARING MEMBERS AND G40 FOR INTERIOR NON-LOAD BEARING MEMBERS.
CONNECTIONS:
BOLTED CONNECTIONS ARE TO USE AS A MINIMUM EITHER ASTM A307(TYPE A)OR ASTM A325,STRUCTURAL BOLTS.ALL
SCREWS SHALL BE A#10 MINIMUM SIZE AND CONFORM TO ASTM C1513 STEEL TAPPING SCREWS,ASTMC-1002 AND ASTM C-954
TYPE S AND/OR TYPE S-12.SCREWS TO BE TESTED IN ACCORDANCE WITH SAE J78 STANDARDS.LENGTH OF SCREW SHOULD
BE APPROXIMATELY 3/8"TO 1/2"LONGER THAN THE TOTAL MATERIAL THICKNESS AND A MINIMUM OF 3 EXPOSED THREADS
SHOULD EXTEND THROUGH THE STEEL.ALL SCREWS SHALL BE THREAD-FORMING OR THREAD-CUTTING,WITH OR WITHOUT A
SELF-DRILLING POINT. SCREWS SHALL BE INSTALLED AND TIGHTENED IN ACCORDANCE WITH THE MANUFACTURER'S
RECOMMENDATIONS. ALL FASTENERS THAT FASTEN DISSIMILAR METALS(SUCH AS ALUMINUM AND STEEL)ARE TO BE
STAINLESS STEEL OR ZINC-PLATED CORROSION RESISTANT SCREWS.
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RYAN
EXPIRES:12-31 -2016
9570 SW Barbur Blvd Umpqua Bank Roof Top Unit Anchorage
. Suite One Hundred Project Name Project# 150467
Portland,OR 97219
Location 6610SW Cardinal Lane,Tigard,Oregon
MILLER Client Oregon Aire
Phone 503.246.1250
CONSULTING Fax 503.246.1395 By J LT Ck'd n RL Date 04/24/2015 Page S2 OF 3
ENGINEERS www.miller-se.com
` e
18 GA
PROVIDE(2)CLIP CONN.AT `Z
—.
— — EA.SHORT SIDE OF UNIT
40:41°
II II
(3)#12x1"
SELF-TAPPING
SCREWS EA.SIDE
(N)CURB EA.CONNECTION
#12 SELF-TAPPING
II II SCREWS AT 16"O.C.
HSS MOUNTING FRAME
A (DESIGNED BY OTHERS)
a
IIIIAki11116
II
CLIP CONN.DETAIL � to
�E() PROp4.
PROVIDE(3)CLIP �`3 <4G I NFA /0
CONN.AT EA.LONG c(.. k' •P
SIDE OF UNIT • 6 ,11PE cr-
UNIT PLAN i
8RE c 1
�2op��Ye 29' `L'E
RYAN
EXPIRES:12-31 -2016
I= O I I
END ELEV. SIDE ELEV.
MECH. UNIT - ADAPTER CURB ANCHORAGE
F� N.T.S.
dr 9570 SW Barbur Blvd. project Name NEW ROOF TOP UNIT Project # 150467
Suite One Hundred
Portlond, OR 97219-5412
Location 6610 SW CARDINAL LANE,PORTLAND OR
MILLER Client OREGON AIRE
CONSULTING (503)248-1250
ENGINEERS FAX: 246-1395 By JLT Ck'd RI" Date 04/24/2015 Page S3 of 3
s
RECEIVED
APR 3 0 2015
CITY OF i
• Consulting Engineers BUILDING L`tiVI"i0N
October 14, 2013
Mr. Dan Miller
GLUMAC
900 SW Fifty Avenue,Suite 1600
Portland, OR 97204
RE: Umpqua Bank Roof Mechanical Unit Support
Tigard, OR
Dear Dan:
Attached please find calculation sheets 1 through 14, dated September 23, 2013, which verify the structural
adequacy of the Umpqua Bank Roof Mechanical Support Project, as shown on drawings S1 through S2 dated
October 14, 2013. Design is based on the requirements of the 2010 Oregon Structural Specialty Code
(OSSC), based on the 2009 International Building Code.
• If you have any questions or need further information, please call me.
Sincerely, �
.�k�jc-t.rip
Chris Tung, P = LEED APPROT.
Associate e G
�`
.� SI 9P t
Attachments
SORE OYq
CT/ch ��'
� • r. :16°' \4'
2135021caic letter 10-14-13.docx � 10\A\
EXPIRES: 1213/hit.
111 SW Fifth Avenue,Suite 2500 Portland, Oregon 97204-3628 (503)227-3251 Fax (503)227-7980
Seattle Everett Tacoma Lacey Portland Eugene Sacramento Grass Valley San Francisco Walnut Creek Los Angeles Long Beach Pasadena
Irvine San Diego Boise Phoenix St. Louis Chicago New York
Lt IP{ 1,w.. — , . .
( 00 5v.1 Ca,,t,st At LA, 2
17,6lit, ,Oil q7224-
Conterminous
722 -Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124 Site. coca i vwcte5
Longitude = -122.744905
Spectral Response Accelerations Ss and S1
Ss and S1 = Mapped Spectral Acceleration Values
Site Class B - Fa = 1.0 ,Fv = 1.0
Data are based on a 0.05 deg grid spacing
Period Sa
(sec) (g)
0.2 0.940 (Ss, Site Class B)
1.0 0.337 (S1, Site Class B)
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124
Longitude = -122.744905
Spectral Response Accelerations SMs and SM1
SMs = FaxSsand SM1 = FvxS1
Site Class D - Fa = 1.124 ,Fv = 1.726
I �{�Jkd'i�W i72 44ssuroe4 Sider CtassL
Period Sa
(sec) (g)
0.2 1.057 (SMs, Site Class D)
1.0 0.582 (SM1, Site Class D)
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124
Longitude = -122.744905
Design Spectral Response Accelerations SDs and SD1
SDs = 2/3 x SMs and SD1 = 2/3xSM1
Site Class D - Fa = 1.124 ,Fv = 1.726
Period Sa
(sec) (g)
0.2 0.705 (SDs, Site Class D)
1.0 0.388 (SD1, Site Class D)
Sheet No.
Project Unit ?Ale
frz By e67--
41-
Location
G�
Location Dote
//-7V/iWMConsulting ?
Engineers
Client Revised Job No.
• Portland.Oregon -V3502
Date
, 7FD ole-t6rft (912234-31175
Z0,1)( (( 0 fS"r PL-F 2 pSru)=
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•
tsravity Beam Design
RAM RAM SBeam v5.01
101/4 21-,/ S1 fa „1Z. A?(.p 09/24/13 11:02:27
STEEL CODE: AISC 360-05 LRFD
• SPAN INFORMATION(ft): I-End(0.00,0.00) J-End(28.00,0.00)
Beam Size (User Selected) = W21X57 Fy = 36.0 ksi
Total Beam Length(ft) = 28.00
Mp (kip-ft) = 387.00
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
7.000 6.08 5.25 No No
14.000 6.08 5.95 No No
21.000 4.20 5.25 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.057 0.000
28.000 0.057 0.000
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)=24.49 kips 1.00Vn= 184.58 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
hp-ft ft ft kip-ft
Center Max+ 1.2DL+1.6LL 226.4 14.0 0.0 1.00 0.90 348.30
Controlling 1.2DL+1.6LL 226.4 14.0 0.0 1.00 0.90 348.30
REACTIONS (kips):
Left Right
DL reaction 9.45 8.51 M,3{ cAG11Y= v�J
Max+LL reaction 8.23 8.23 17, ( . jiJ 4-155
Max+total reaction(factored) 24.49 23.37
DEFLECTIONS:
Dead load (in) at 13.86 ft = -0.329 L/D = 1020
Live load(in) at 13.86 ft = -0.307 L/D = 1096
Net Total load(in) at 13.86 ft = -0.636 L/D = 528
Sheet No.
Project
1/644 Rut,& /c- Pic By cc r—
Location Date /c '/'/33 P ffil consulting Engineers
Job No.
Client Revised
Pallancl,Oregon >1 3_52).
. 0 Date
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Uravity Beam Design
RAM RAM SBeam v5.01
10/11/13 13:22:26
•
STEEL CODE: AISC 360-05 LRFD
SPAN INFORMATION(ft): I-End(0.00,0.00) J-End(24.00,0.00)
Beam Size(User Selected) = W16X36 Fy = 36.0 ksi
Total Beam Length(ft) = 24.00
Mp(kip-ft) = 192.00
Top flange braced by decking.
POINT LOADS(kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
12.000 1.32 0.79 No No
LINE LOADS(k/ft):
Load Dist(ft) DL LL
1 0.000 0.036 0.000
24.000 0.036 0.000
2 0.000 0.060 0.150
24.000 0.060 0.150
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)=5.69 kips 1.00Vn=101.31 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft hp-ft
Center Max+ 1.2DL+1.6LL 42.7 12.0 0.0 1.00 0.90 172.80
Controlling 1.2DL+1.6LL 42.7 12.0 0.0 1.00 0.90 172.80
REACTIONS (kips):
Left Right
DL reaction 1.81 1.81
Max+LL reaction 2.19 2.19
Max+total reaction(factored) 5.69 5.69
DEFLECTIONS:
Dead load(in) at 12.00 ft = -0.106 L/D = 2723
Live load(in) at 12.00 ft = -0.116 L/D = 2473
Net Total load(in) at 12.00 ft = -0.222 L/D = 1296
•
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1. ALL BOLTS 7I8'eb NSA'
t 2. WHERE REACTION,IS SHOWN.USE TABLE B.I DO•NOT PROVIQE
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3, WHEY REQUIRE!)NUMBER DP BOLTS DOES�JdT FR 1N BEAM 6EPTH •
3. SEE BOLT TABLE(DETAIL 1/S5)FOR NUMBER OP BOLTS • I •
OR WHEN MAXIMUM REACTION IS EXC£EDES,USE DOUBLE'ANGLE - REQUIRED('N•) - i
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,' . . •• - ••••— •utl 1I It
irifflaConsulting Engineers
October 14, 2013
Mr. Dan Miller
GLUMAC
900 SW Fifty Avenue, Suite 1600
Portland, OR 97204
RE: Umpqua Bank Roof Mechanical Unit Support
Tigard, OR
Dear Dan:
Attached please find calculation sheets 1 through 14, dated September 23, 2013, which verify the structural
• adequacy of the Umpqua Bank Roof Mechanical Support Project, as shown on drawings S1 through S2 dated
October 14, 2013. Design is based on the requirements of the 2010 Oregon Structural Specialty Code
(OSSC), based on the 2009 International Building Code.
If you have any questions or need further information, please call me.
Sincerely, 40111213444
'v
Chris Tung, P s LEED AP
9 pQ' �'
Associate
I �, x n �3',s�
511 9P
Attachments * !'°‘‘
-IIOREPONq
4
0
CT/ch '�j f' 12� <(i
213502lcaIc letter 10-14-13.docx 8 A0�\
EXPIRES: 24404_
4_
111 SW Fifth Avenue, Suite 2500 Portland, Oregon 97204-3628 (503)227-3251 Fax (503) 227-7980
Seattle Everett Tacoma Lacey Portland Eugene Sacramento Grass Valley San Francisco Walnut Creek Los Angeles Long Beach Pasadena
Irvine San Diego Boise Phoenix St. Louis Chicago New York
Project tlytht.iik _pcZ.:.... By 6,,a— Sheet No.
Effil Consulting Engineers Location 7-7„..1,-.7.pa,
Date /24,8 /
Job No.
Client .ac_ Revised
Portland,Oregon 502-
" n Date
-
etlEx*iiii ihor6 wy-..e(E)poor. :
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Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124 toord{;mt
Longitude = -122.744905
Spectral Response Accelerations Ss and S1
Ss and S1 = Mapped Spectral Acceleration Values
Site Class B - Fa = 1.0 ,Fv= 1.0
Data are based on a 0.05 deg grid spacing
Period Sa
(sec) (g)
0.2 0.940 (Ss, Site Class B)
1.0 0.337 (S1, Site Class B)
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124
Longitude = -122.744905
Spectral Response Accelerations SMs and SM1
SMs = Fa x Ss and SM1 = Fv x S1
Site Class D - Fa = 1.124 ,Fv = 1.726
I ail knori scree- Asswtie.cf mite. C(ass.1>
Period Sa
(sec) (g)
0.2 1.057 (SMs, Site Class D)
1.0 0.582 (SM1, Site Class D)
Conterminous 48 States
2003 NEHRP Seismic Design Provisions
Latitude = 45.41124
Longitude = -122.744905
Design Spectral Response Accelerations SDs and SD1
SDs = 2/3xSMs and SDI = 2/3xSM1
Site Class D - Fa = 1.124 ,Fv = 1.726
Period Sa
(sec) (g)
0.2 0.705 (SDs, Site Class D) 0:705-
1.0
:705-
1.0 0.388 (SDI, Site Class D)
Project timpota buy JY( By r Sheet No.
Location Date V.24/13
Consulting Engineers
Job No.
Client Revised
Portland,Oregon
'
) Date 5-02
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Consulting Engineers
Client Revised Job No.
ParMand.Oregon 1./3502
— Date
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• Fil tsravity Beam Design
RAM RAM SBeam v5.01 ( \Wi'wx�� 3DK A
l 09/24/13 10:52:04
STEEL CODE: AISC 360-05 LRFD
• SPAN INFORMATION(ft): I-End(0.00,0.00) J-End (30.00,0.00)
Beam Size(User Selected) = W14X38 Fy = 36.0 ksi
Total Beam Length(ft) = 30.00
Mp (kip-ft) = 184.50
Top flange braced by decking. •
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
10.000 1.75 0.50 No No
7.000 0.72 0.25 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.038 0.000
30.000 0.038 0.000
2 0.000 0.105 0.175
30.000 0.105 0.175
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL) =9.68 kips 1.00Vn=94.41 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft kip-ft
Center Max + 1.2DL+1.6LL 71.5 12.2 0.0 1.00 0.90 166.05
Controlling 1.2DL+1.6LL 71.5 12.2 0.0 1.00 0.90 166.05
fid
REACTIONS (kips):
Left Right 4Z5-
DL reaction 3.87 2.90 3- U" ��i,jEclio
Max+LL reaction 3.152.85 t/ Of'
Max+total reaction(factored) 9.68 8.04 C 2 GO/VA/E0/1711/
( ) MOM'
1
DEFLECTIONS: F"-----....__-1 :�55
Dead load(in) at 14.40 ft = -0.405 L/D = 889
Live load (in) at 14.55 ft = -0.337 L/D = 1069
Net Total load(in) at 14.55 ft = -0.742 L/D = 485
•
uravity "seam Design
RAM RAM SBeam v5.01
( }W2\X S 1 64(MEr... , 3(p 09/24/13 11:02:27
STEEL CODE: AISC 360-05 LRFD
SPAN INFORMATION (ft): I-End(0.00,0.00) .T-End(28.00,0.00)
Beam Size(User Selected) = W21X57 Fy = 36.0 ksi
Total Beam Length(ft) = 28.00
Mp (kip-ft) = 387.00
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
7.000 6.08 5.25 No No
14.000 6.08 . 5.95 No No
21.000 4.20 5.25 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.057 0.000
28.000 0.057 0.000
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)=24.49 kips 1.00Vn= 184.58 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft kip-ft
Center Max+ 1.2DL+1.6LL 226.4 14.0 0.0 1.00 0.90 348.30
Controlling 1.2DL+1.6LL 226.4 14.0 0.0 1.00 0.90 348.30
REACTIONS (kips):
Left Right
DL reaction 9.45 8.51 r44 CA-FAGin'-= Kok-
Max+LL reaction 8.23 8.23 � ( F`7...koli'•.f6- 4115
Max+total reaction(factored) 24.49 23.37
DEFLECTIONS:
Dead load (in) at 13.86 ft = -0.329 L/D = 1020
Live load(in) at 13.86 ft = -0.307 L/D = 1096
Net Total load (in) at 13.86 ft = -0.636 L/D = 528
'raviry seam Design 7
RAM RAM SBeam v5.01
( )WfkgsC. ;i1Rp ,e 43(g 09/24/13 11:28:53
STEEL CODE: AISC 360-05 LRFD
SPAN INFORMATION(ft): I-End (0.00,0.00) J-End(20.20,0.00)
Beam Size(User Selected) = W16X45 Fy = 36.0 ksi
Total Beam Length(ft) = 20.20
Mp(kip-ft) = 246.90
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
7.000 4.20 5.25 No No
14.000 6.08 5.95 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.045 0.000
20.200 0.045 0.000
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)= 16.86 kips 1.00Vn= 119.98 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft hp-ft
Center Max+ 1.2DL+1.6LL 103.5 14.0 0.0 1.00 0.90 222.21
Controlling 1.2DL+1.6LL 103.5 14.0 0.0 1.00 0.90 222.21
REACTIONS (kips):
Left Right
DL reaction 5.07 6.13
Max+LL reaction 5.26 5.94 CO -�,aLT �"�Al
Max+total reaction(factored) 14.49 16.86 23
DEFLECTIONS:
. Dead load (in) at 10.30 ft = -0.160 L/D = 1519
Live load(in) at 10.20 ft = -0.164 L/D = 1481
Net Total load (in) at 10.20 ft = -0.323 L/D = 750
Sheet No.
Consulting Engineers in
Project '(44 mufA.8Amk- PiC By
Location Date Date /q/(////3 ria
JobNo.
Client Revised
Portland,Oregon -y
• tn Dote
CF-1cic Xi FAAH/AIG-, ,
D=/32541 1reV
001
l1 r Li_ Xi
1 ,
.4S.(E)Wang 6 tA))1,')(36
N-= ;
(1iii2. ,f=' SE -71-ACki --D . w 12xil
p----43251;'
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6-,:x'' 25-r4r Li-
24. •
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2a PSF
///;-:20= Zoo PL ( Tz> INCLUDE deO6F..-_-.le. 5
-- 275
(/32 /32+47•
9
0 W 1 I
34-
_
I (S)1,114-x6 1
.N1, D
2:7'
1'
575 6.6
.(L-) tAi I IP 0 K .-5F• 4-11-ACHED.
,,- --,
.U
• �51 uravlty seam Design
RAM RAM SBeam v5.01
(r)v112)G19 10/11/13 13:21:57
STEEL CODE: AISC 360-05 LRFD
• SPAN INFORMATION(ft): I-End(0.00,0.00) J-End(15.00,0.00)
Beam Size(User Selected) = W12X19 Fy = 36.0 ksi
Total Beam Length(ft) = 15.00
Mp(kip-ft) = 74.10
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
7.500 1.32 0.79 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.019 0.000
15.000 0.019 0.000
2 0.000 0.060 0.150
15.000 0.060 0.150
SHEAR(Ultimate): Max Vu(1.2DL+1.6LL)=3.93 kips 1.00Vn=61.93 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft kip-ft
Center Max+ 1.2DL+1.6LL 20.1 7.5 0.0 1.00 0.90 66.69
Controlling 1.2DL+1.6LL 20.1 7.5 0.0 1.00 0.90 66.69
REACTIONS (kips):
Left Right
DL reaction 1.25 1.25
Max+LL reaction 1.52 1.52
Max+total reaction(factored) 3.93 3.93
DEFLECTIONS:
Dead load(in) at 7.50 ft = -0.066 L/D = 2711
Live load(in) at 7.50 ft = -0.071 L/D = 2543
Net Total load(in) at 7.50 ft = -0.137 L/D = 1312
tiravity Beam Design
RAM RAM SBeam v5.01
C 1(5.A}� , 10/11/13 13:22:26
STEEL CODE: AISC 360-05 LRFD
SPAN INFORMATION(ft): I-End (0.00,0.00) J-End(24.00,0.00)
Beam Size(User Selected) = W16X36 Fy = 36.0 ksi
Total Beam Length(ft) = 24.00
Mp (kip-ft) = 192.00
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
12.000 1.32 0.79 No No
LINE LOADS(k/ft):
Load Dist(ft) DL LL
1 0.000 0.036 0.000
24.000 0.036 0.000
2 0.000 0.060 0.150
24.000 0.060 0.150
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)=5.69 kips 1.00Vn=101.31 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft hp-ft
Center Max+ 1.2DL+1.6LL 42.7 12.0 0.0 1.00 0.90 172.80
•
Controlling 1.2DL+1.6LL 42.7 12.0 0.0 1.00 0.90 172.80
REACTIONS (kips):
Left Right
DL reaction 1.81 1.81
Max+LL reaction 2.19 2.19
Max+total reaction(factored) 5.69 5.69
DEFLECTIONS:
Dead load(in) at 12.00 ft = -0.106 L/D = 2723
Live load(in) at 12.00 ft = -0.116 L/D = 2473
Net Total load(in) at 12.00 ft = -0.222 L/D = 1296
•
• travity Beam resign
RAM RAM SBeam v5.01
10/11/13 13:29:23
•
- STEEL CODE: AISC 360-05 LRFD
• SPAN INFORMATION(ft): I-End(0.00,0.00) J-End(27.00,0.00)
Beam Size(User Selected) = W14X38 Fy = 36.0 ksi
Total Beam Length(ft) = 27.00
Mp(kip-ft) = 184.50
Top flange braced by decking.
POINT LOADS (kips):
Flange Bracing
Dist(ft) DL LL Top Bottom
5.750 1.32 0.00 No No
12.600 ' 1.32 0.79 No No
LINE LOADS (k/ft):
Load Dist(ft) DL LL
1 0.000 0.038 0.000
27.000 0.038 0.000
2 0.000 0.200 0.275
27.000 0.120 0.150
SHEAR(Ultimate): Max Vu (1.2DL+1.6LL)= 11.23 kips 1.00Vn=94.41 kips
MOMENTS (Ultimate):
Span Cond LoadCombo Mu @ Lb Cb Phi Phi*Mn
kip-ft ft ft kip-ft
Center Max+ 1.2DL+1.6LL 76.7 12.6 0.0 1.00 0.90 166.05
Controlling 1.2DL+1.6LL 76.7 12.6 0.0 1.00 0.90 166.05
REACTIONS (kips):
Left Right
DL reaction 4.60 3.39
Max+LL reaction 3.57 2.96
Max+total reaction(factored) 11.23 8.80
DEFLECTIONS:
Dead load(in) at 13.09 ft = -0.346 L/D = 936
Live load (in) at 13.23 ft = -0.277 L/D = 1168
Net Total load (in) at 13.23 ft = -0.623 L/D = 520
•
CERTIFIES] DIMENSION PRINT -•
CI
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. MET 512E L T. 7735. _214 4FT- IN. N+ OF7, IN, 161 CPT. IN. N11 G Fr. mi. 3H XT.114. N4 F FI.IN, Mt1 FT:IN. T
_igitOtol
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+00-.4024 2510 1302.7 1543.4 5'•1- 71E0,0 Y-I 7/U 6040.2'-0 719'3709.0 12'-9,7104 533.5 l'.9". 2107.0 7'-2 7104' 1337.0 2'-7 314' NOTES•
•. 1W1C0.2'4 23E0 139:0 1543.4 Val- 2112.0 7'-1 7/0. 602.0 2'-2 7.79'Z59.0 12%5 9/R1 533.5 ir_ 1.Mw:.7Z•v'Ssc69,}aansa.. s•,119T TA4 am ;ptOmlcv 4
1 2117.0 7'-2 716.1' 657_S z'-i 3/i' Aikand up 2,0.431 09 of l o+. 19
4£0.1352 3340 1577.3 1((GA 5'-6• 2473.0 5'-1 1/4. 019.4.2'4'9.11 465,0 17•-3' 174.01'-214/16')4E3_0 1•-0 Gi103' '•75.0 -731 le 2,.0, auGtll,Tsra 5:011010kpe�a7r_a•19aT4}lielvuanottionat
all 9718 1143,•6 10113.1 'L-5' 1 2420.0 0'.I 1/4' 110.0 2'-7 7/d 416'9.0 13'-17• 379.51--2 1API6 7413_0 8'-0 3/1�' 6.0 9'-13/Ifi' 3.formal. c.-0SCn andopra00ae1 gtw¢'1a's, oAI amc.,l 1
• IEll 3400 1515.5 1038,4 5'-A' 1 2470.0 9'-I 1/4' EIt.11 2-•7 7/0'4115,0 13,4.0"_ 379.5 I'-2 1'115'2403.0 0`. -is Fn64avvel:2lGv,�rMent
,. 3• 026.0 3'-07/16'
9100 /'61,0 Ir ICY.( 5'-6• '2470.0 8'-1 1/4' PIO.b]'•J 7/0'0+ti3O 13'-¢• 9779._1--2 I5/I5'74/3_0 B'-0 3/16• 906.0 5,13/16'
KO 411011 INI FEW OILS [...GAS S.CI lcM 024:155
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d•fi 3/9 7'-7 7/q - CCMIR41261 CPT WOOL FILTER atCC55-1 10'-I i/i"171_11 pF3i
12400,41 [1.42.0) 1092,03 FEE/brit FM(421 7'-5 E/S' _ C- 6'-13 0/U7/RLITTItUC/15p,51•"3111,/11110 RIB. }� - �-Fp1E19 En:44bT OR LLAIr_YETROO 051761,10.1104• ___ LLI E x0207= 06AILA10,L;(4411 Oa rrc(0111(6MAi 106)
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I .I. I i motel D ak1pq ..
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i I I �• I ., ', 1 na.Soot decking 18 gage t'/r Inch:galvanized! See plane attachment I - _ -
i
I I 1 '.I '
1 I
1 1 ' 1!Sandra!
n o c oo r Is r sp2 blg for ved I{I altdlmensidns and con'dlllons pncludin j apenIngay
• ntr clo e
I 1•
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.....
I •
Qe 2.,Shop drawings are ioqulrad'pg ielnlordng Steel,simaurdl dleel,evil sl�el dock..SuWhll der
lebdcat3bn... ' P
- t '3,oddegoofe br ca for wind Idade to a the'rool•floor end walls have been permanently`attached:
1
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•
!• 1 p I ...:..1.44......;:„.....:,:......!...,.:. -..; .. .. 1 ¶. edal lns eollori Is requlreb for reinforced cabareto anchor bolls embLdded In.concialo,
.I I ASTM A 2b.'iflo hive boIfs Ind welding.' .
' i , i • , . See Mbar notes on Sheet S•S.
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" ! PHASE 1
. . . . •
•
.
I
TABLE'R 'MINIMUM BOLT TABLE !:...:. ( I •
•WF SEAM DEPTH N
is w1D mz_--2
• 11 ALL DOLTS 7;8'0 HSB
•
.. , W14 Wl5 WIB_—__3 • ,, I 1/2,, 21 HORIZ SHORT.SLOTTEtl HOLES:PERMITTED
. V21 W24__ —_4' •
II '3: 3EE'BOL'T TABI:EPORNUMBEA OF BOLTS
W27 L.__
_S j „ " 'CP—T&B FLGS I i REQUIRED rN•) DETAIL 7155
TABLE B MAX1t,1UM RE.kdlloN BOLT..TABLE :.... . •I ,.
• i IA/WMUMIRFAC11O} . I-I- c.
• H aPs - .c;
i.
• 12:` 13 I'1 �-
3----r1-- � 1 ' FL 21/2
••
. 17—— —..i._.:._..76 • j ..• II :'�Ii
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-._ .. '
P Y.i:
•
•
1/+
•
. • : h 1.-SEE ISLANS$')RBEAM REACTION WI}ERE 4O REACTION'191{OTEb. • • .
PROVIDE,THE MINIMUM NUMBER OF BOLTS BASED ON THE BEAM - - '" •
DEPTH SHOWN IN TABLE A:
2. HERE REACTION IS SHOWN.USE TABLE B.,do:NOT PROVIDE 1• ALL BOLTS 7/13'0 HST,W
FEWER BOLTS THAN IS SHOWN TN TABLE A.ii ; HOWL2. HOZ SHORT SLOTTED I1OLES PERMITTED IN PLATE
2. WHEV REQUIRED NUMBER 33P BOLTS DOES NOT FIT IN BrAM 2EPTH 3, SEE BOLT TABLE(DETAIL'1/ES)FOR NUMBER OF BOLTS
•
OR WHEN,MAXIMUM REACTION IS EXCEEDED,USE bOUSL2 ANGLE . REQUIRED(•N•)
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